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Part Number/Description & Qty.

Supply Voltage Range

Current Rating

Power Rating

Connector Type

Misc. Notes

6S LiPo batteries x 2 or 4

19.2V - 25.2V (22.2V nominal)

300A (600A burst)

-

XT90

5000mAh capacity (111Wh), will be connected in series to create a 12s battery (voltage doubled)

Currently discussing if we should have 2, 4, or 6 batteries (pairs of 6s wired in parallel for more capacity)

3S LiPo batteries x 41

9.6V - 12.8V (11.1V nominal)

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-

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3500mAh 4000mAh capacity (3847.85Wh 2Wh capacity)

Being used to power camera/video systems.

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Part Number/Description & Qty.

Input Voltage Range

Current Draw

Power Consumption

Power Connector Type

Suggested Power Source(s)

Misc. Notes

Vector Nav (Rugged) x 1

3.3V - 14V

250mA @5V

1.25W

Harwin M80 (10 pin male)

Pixhawk 5/6 (see RFC for rugged harness)

Wired to GPS2 Port of the Pixhawk

Vector Nav (Antenna)Harness is currently being discussed x 2

2.5V - 12V

12 mA @12V

0.288W

Pixhawk 5/6

Wired to GPS2 Port of the Pixhawk

120F3[X] ESCs x 5

15V - 50V

120A max. continuous, 200A burst

-

Exposed pads

PDB500[X] board

Current draw numbers are max. ratings, should measure this to get a more accurate power consumption while running with our motors

V505 KV260 Lift Motors x 4

42V - 52V

Max. throttle: 52.93A

50% throttle: 11.68A

60A max. continuous

Max. throttle: 2483.87W

50% throttle: 558.10W

3 phase wires

120F3[X] ESCs

Power calculations based on nominal LiPo battery voltage (43.6V - 44.4V approx.)

AT4130 230Kv Push Motor x 1

12S LiPo (36V - 50.4V)

Max. throttle: 55.63A

50% throttle: 6.96A

60 max. continuous

Max. throttle: 2426.63W

50% throttle: 309.4W

PDB500[X] board

Power calculations based on nominal LiPo battery voltage (43.6V - 44.4V approx.)

HS-311 Servo Motors x 8

4.8 - 6V

7.4mA idle, 160mA operating (no load)

-

3 pin header cable

Pixhawk 5/6 5V rail that comes from PDB500[X]

Low continuous power consumption, needs a fairly stable voltage rail to avoid motors failing or causing rail to collapse

VTX-1G3SE Video Transmitter x 1

6V - 36V

40mA - 250mA

Current draw will increase if onboard regulator used for power

480mW - 3W

Exposed TH pads

OSD board

RMRC Video Transmitter

12V

0.7A

This component will only be used if VTX-1G3SE is not used

Current draw is the rated current

RFD900x Modem x 1

3.5V - 5.5V, 5V nominal

800mA peak

4W

Male pin headers

Pixhawk 5/6

Wired to Telem1 port of the Pixhawk (1.5A current limit, should suffice, see suggested pinout here)

TFMini-S Micro LIDAR Module x 1

5V +/- 0.1V

200mA peak, <140mA nominal

Max 0.7W

JST GH 1.25mm 4 pin

Pixhawk 5/6

Powered off of the I2C port on the Pixhawk (default use case)

Pixhawk 6X x 1

Max input: 6V

USB input: 4.75V-5.25V

Servo Rail Input Mx: 36V

1.5A max. (Telem1 port)

1.5A max. (all other ports combined)

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Clik-mate 2mm 6 pin x 2 (1 primary, 1 backup)

Nathan’s Power Module 5V rail from VBAT

OSD Board x 1

Telemetry: 5V (from pix)

VBAT: 12V for VTX and Camera

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JST GH 1.25mm 6 pin (Telemetry)

Exposed pads (VBAT)

3S battery for 12V

5V from Pixhawk

VBAT is the 12V rail that powers the cameras and VTX, telemetry is power for board itself + communications

Lumenier 3-Way Video Mux x 1

5V - 26V

-

25mW - 500mW (adjustable)

Male pin headers

OSD Board

Input voltage is the same as output to cameras

FPV Camera (Caddx Baby Ratel 2) x 3

5V - 40V

100mA - 300mA

500mW - 1.5W

JST GH 1.25mm 2 pin, 3 pin connectors (uncertain)

Lumenier Video Mux

Current draw is an estimate based on current draw of similarly sized cameras

HereFlow Optical Flow Sensor x 1

5V

-

-

JST GH 1.25mm connectors (uncertain)

Pixhawk 5/6

Powered off of the CAN port on the Pixhawk (default use case)

M9N-GPS

5V

<150mA

< 750mW

JST GH 1.25mm 10 pin (telemetry & power)

Pixhawk 5/6

Powered off of the GPS1 port on the Pixhawk (default use case)

Airspeed Sensor x 1

3.3 - 5V

3mA

15mW @5V

JST GH 1.25mm 4 pin

Pixhawk 5/6

Powered off of the I2C port on the Pixhawk (default use case). We can use the I2C breakout board to have multiple devices on the same I2C bus

RGB LED strip

12V

~1.7A max

Most likely 10-20W depending on length

2.54mm header harness

Can also solder to pad directly and heat shrink

PDB500[X] board

Cytron H-Bridge Driver (for driving LED strip)

12V input for LEDs
5V input for PCB circuitry

Screw terminal for 12V input and LED output

2.54mm male headers for 5V, GND, and input from pixhawk

12V from PDB500[X]

5V from Pixhawk 5/6 5V rail that comes from PDB500[X]

GPIO from Pixhawk will be used to drive this H-bridge PCB to control whether the LED strip is ON or OFF

DC Cooling Fan

12V

590mA

6.7W

PDB500[X]

Fan to cool avionics compartment

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